Measuring and dispensing pump



Jly 14, 1931. l.. R. HARTLEY f 1,814,153

MEASURING- AND DISPENSING PUMP Filed oct.' 2, 1925 v sheets-sheet 1 ZC@ Z /f/ 1 "MIU, UMH

July 14, 1931. l.. R. HARTLY- MEASURING AND DISPENSING PUMP Filed oct. 2, 192e 'l sheets-shet 2 HUUHHWWWUUHHHHWHH WWW" Umm um www ahw/' July 14, 1931. L. R. HARTLEY.

MEASURING AND DIsPENsING PUMP Filed oct. 7 sheets-sheet 3 IIIIIII July 14, 1931. R. HARTLEY I 1,814,153

MEASURING AND DISPENSING PUMP Filed oct. 2, 1925 7 sheets-Sheet 4 Inventor f July 14, 1931. L. R. HARTLEY 1,814,153

` MEASURING AND DISPENSING PUMP Invenor July 14, 1931. 1..-R. HARTLEY MEASURING AND DISPENSING PUMP Filed oct. 2, 1925 7 sheets-sheet e vInl/6111501 July 14, 1931. l., R. HARTLEY MEASURING AND DISPENSING PUMP Patented `JulyA i4, `1931 suNrrli-Dl s'raras 4lux'rEN'l'- ori-ICElA L'E IR. EARTLLY, OF FORT WAYNE, INDIANAJASSIGNOR T0 BOWSER COMPANY,

INC., OF FORT WAYNE, INDIANA, A CORPORATION yF INDIANA MEASUBING msrENsING Pinar This invention relates to pumps for measuring and dispensing liquids such as gasoline, and has for one of its objects the provision of a dispensing pump having a frame construction which 'is adapted to support driving mechanisml of different kinds l*for opy erating the pump.'

A further object is to provide a pump having its operating mechanism supported on af skeleton frame Iand enclosed in an outer cas ing which is provided with removablepanels tofpermit access to the operatin mechanism.

A further object is to provi e a pump of improve-d appearance and having improved lighting arrangement.

A further object is to provide a pump havf ing improved means for measuring and registering the amount of liquid dispensed, and

having improved means for indicating to the customer that the pump is being properly operated and correct measure is given.

A further object is to provide a pump having improved` construction and operation which may -be economically manufactured and which will `guard boththe customer and owner against fraudulent operation on the part ofthe operator.

Other objects will appear from the following description. i

The invention is exemplified in the ycombination and arrangement of parts shown in the accompanying drawings and described in the following specification, and it is more particularly pointed but in the appended claims. l

In the drawings, 4

Fig. 1 is an elevation of the lower portion of a dispensing pump made according, to the present invention, having a portion ofthe housing broken away to disclose the inner parts. .f

Fig. 2 is a view similar to Fig. 1, showing the upper portion of the pump.

Fig. 3 is a section on the line 3 3 of Figs.. 1 and 2.

Fig. 4 is a section on line 4 4 of Fig. 3.

Fig. 5 is an elevation on line 5 5 of Fig. 2, with parts broken away.

Fig. 6 is a section' on line 6 6 of Fig. 22

F 7 is an elevation of the sight feed with parts in section.

Fig. 8 is a section on line 8 8 'of Fig. 7. Fig. 9 is a section von line 9 9 of Fig. 2. l Fig. 10 is a section on line 10-10 of Fig. 9. Fig. 11 is a section on line 11-11of Fig. 10. Fig. 12 is an'end elevation of the central portion of the pump with` a part of the casing broken away to show the hand drive.

Fig. 13 is a section on line 13 13 of Fig. 4. Fig. 14 is a section on line` 14-14 of Fig. 4. Fig. 15 is a fragmentary elevation. of the quantity indicato l In the embodiment of the invention shown inthe drawings the numeral 20 designates a `supporting base having an end casting 21 for mechanism for the pump is supported on a .Skeleton fra-me comprising four upright angle bars 26, which are secured to the projections 25 by cap screws 27. A .piston 28 is arranged tomove in the cylinder 22 and is ,provided with a leather pr ring 29 for forming a tight connection between the piston and cylinder. A spring 30 is provided for holdingy the leather against the inner Wall of the cyliny der. The piston is weighted by a comparatively heavy member 31 to insure its downward returnmovement in the cylinder. A valve 32 permitsthe .piston to move freely downwardly into liquid contained. in the cylinder, but causes the piston to lift the liquid in the cylinder when the piston is raised. The cylinder is provided `with an inlet port 33 controlled by a valve 34 to prevent return movement of the liquid being pumped. The valve 34 is provided with a connection35 for connecting the valve to any suitable source of supply such as an underground storage tank. A piston rod 36 is connected to the piston 28 and extends upwardly through a packing gland 37 A rack 38 is connected to the upper end of the piston rod 36 and meshes with a pinion 39 secured to a shaft 40: The Shaft 40, as shown in Figs. 2 and 12, 1s provided with a sprocket wheel 41 overwhich a chain 42 passes. The chain 42 engages a pinion 43 on the shaft 44. As

5 shown in Flgs. 1 and 4, the shaft 44 is pro.

vided with a hand crank 45,'` and a clutch member46 is fixed to the inner end of the;

shaft. The shaft 44 is journaled in a bracket s 47 secured to the angle bars 26 and the shaft 1s slidable longitudinally in its bearing. The shaft moves freely through the sprocket Wheel 43, which is free to rotate on the shaft. The sprocket wheel 43 carries a clutch member 48, wh1ch engages the clutch member 46 when the shaft is drawn outward. When the clutch members 46 and 48 are in engagement rotation of the hand crank 45 will drive the pinion 43 and the sprocket wheel 41 and thus ,rotate the shaft 40 toraise the rack 38 and-piston 28. During the pumping operation after the piston has been raised to its uppermost limit, it may be released by pushing in on the hand crank 45 to permit the piston to return by gravity without the necessity of reversing the rotationof the hand crank. The clutch 1 member 46 is provided with a peripheral notch in position to be engaged by a pin 49,

' which is mounted for endwise slidingmovement in the tubular guide 50. The pin 49 is provided with a knob 51 by means of which the pin may be slid into and out of engage# ment with the clutch 46. lhen the knob is pushed inwardly, as shown in Figs. 4 and 13, the shaft 44 will be locked against endwise 55 movement so that the hand crank `45is held out of operating connection with the sprocke/t 43. The knob 51 is enclosed in a recess or compartment 52 having a door 53 by means of which the compartment is closed. When the door 53 is closed as shown 'in Fig. 4, the knob 51 will be retained in its innermost position for`preventing operation of the pump by theihandle 45.

The upper end of the cylinder 22 is pro- .vided with a discharge opening 54,'throngh which the liquid is discharged from the cylinder when the piston 28 is raised. A screen l or filter 55 may be placed in the passage from the discharge opening 54, and a conduit 56 leads upwardly from the screen chamber and isprvided with an L 57 at its upper end, which as shown in Fig. 7 connects with a sight feed 58 disposed outside the pump housing. The sight feed 58 is provided with transparent side walls 59, by means of which the liquid may be seen to pass through the feed when the pump is operated. A discharge hose 60 is secured to an outlet portion 61 of the sight feed 58 and an overfiow Wall 62 is 60 interposed between the inner chamber of the sight feed and the dischargeportion 61, to Cause the liquid to stand at a definite level within the sight feed.- This liquid level will indicate whether or notJ the pump is in proper condition to discharge the correct amount of liquid when 1the piston is raised. fIfthe liquid level is not at the proper height inthe vs'lglit feed, vit is evident that the pump is not in condition to discharge the correct amount, since it will be necessary to bring the surface, level to the proper eight before it will beginto discharge to t e customer.- If,- -for 1n-A stance, there are leaky valves inthe pump which permit the liquid to drain from the pump back to the storage tankthis fact will y'be indicated by lowering of the surface level A1n the sightl feed. The sight feed is proy vided with a vent 63 havingl a curved passage 64 communicating with4- t e interior of the sight feed and closed against escape of liquid by a ball valve 65. The ball valve 65 .will

` close against escape of liquid from the sight feed, but will open to prevent vacuum in the neath the piston 69, the weight of the partsr will cause the piston to return to its lowermost position.- InI the constructionlllus'- trated means is provided for introducing a1r and.

into thetop end of the cylinder to assist in the return movement. The passage of air to and from the cylinder 68 is controlled by a valve 70 connected by a pipe 71 to the lower end of the cylinder 68 and by afpipe 72 tot the upper end ofthe cylinder. A connection 73 is providedwith any suitable source of compressed air Vsuch as an airl pump or a storage tank, for supplying pneumatic pressure to the valve 70. The operation of the valve will best be understood from Figs. 9, 10 and 11. The valve comprises a housing member 74 havin a chamber 75 connected with the supply plpe 73 and having passages 76 and'7 7 communicating through chambers 7 8 and 79 respectively with the` pipes 71 and 72. The passage 77 is more restricted thanl the passage 76 as the passage 77 controls admission of air to the upper end of the cylinder through the pipe 72 and less pressure 1s required to return the piston than is required for the pumping'stroke. The chambers 78 and 79 are connected by passages 81 and 82, respectively, with chamber 83, which is open to atmosphere through a vent 84.

Valves 85 and 86 are slidably mounted in guideways formed in the housing 74 and are pressed by springs 87 and 88 into position to close the passages -76 and 77 respectively, thus normally preventing the entrance of air under pressure from the pipe 73 to the ends of the cylinder 68. The plungers 89 and 90 are slidably mounted in openings in ythe valves 85 and 86- and extend through guide openings in the end of the housing 74. Valves 91 and 92 are mounted on the plungers 89 and 90 in position to close the passages 81 and 82 when the plungers are raised. The valves 91 and 92 are free to slide on their respective plungers and are held in position by springs 93 which bear against collars 94 fixed to the respective plungers. A lever 95 1s pivoted on a bracket 96 in position to enthe door 53 -is closed.- It will be apparent that movement of the handle 100 in one direction will raise one end of the lever 95 and lift one or the other of the plungers 89 and 90. When it is desired to operate the pump the handle 100 is turned inthe proper direction to raise the plunger 89. This will rst lift the valve 91 into engagement with its -v'alve seat to close the passage 81. Further movement of the handle 100 will compress the spring 93 and hold the Valve 91vtightly against its seat under spring tension. Fur-v ther movement of the handle 100 will bring the end of the plunger 89 against the val/ve 85 and openthe passage 76 to permit air under pressure to enter through the pipe 71 .into the lower end of the cylinder 68, thus raising the -pis'ton 69 and operating the pump. As long as `the handle 100 is held in its operative position the piston 69 will be k held in its raised position by the compressed air beneath the piston. To return the piston the handle 100 will be moved in the opposite direction, which will first permit the valve 85 to close, shutting off the air supply from the cylinder 68. Further movement will open the valve 91, connecting the cylinder 68 to atmosphere. The weight of the pump piston and connected parts will then return the piston to its lowermost position. This return movement may be hastened by moving the handle 100 in the opposite direction from which it is moved to operate the pump, which will raise the plunger 90 and admit air to the top of the cylinder 68, the valve mech! anism operating 1n a manner similar to that previously described in connection with the admission of air to the lower end of the cylinder; see Fig. 10.

In order to dischargef predetermined amounts of gasoline to the customer a series of limit stops are provided for arresting the upward movement of the piston at predetermined points in its upward travel. Astop rod 103 .is journaled to rotatev about an upright axis and carriesstop arms 104 having adjustable stop screws 105 threaded therein.

The arnis 104 ektendat different angles about the stop rod 103 and'may be selectively rotated into (the path of the stop lug 106 secured to the lower end of the rack 38. The rod 103 carries a pinion,107, which meshes `with a worm on the shaft 108I extending into the compartment 52 and is provided with-a knob 109 and ay dial 110to indicate the position'of the-stops 104. A spring detent 111 is provided lfor arresting the rod 103 with the stops thereon in registration with the lug 106 on the rack 38. A pointer -112 (Fig. 2)

is provided for indicating `the particular stop inregistration with the lug 106. The stops 104 are distributed to arrest the upwardy movement vof the pump piston when a predetermined/quantity of liquid has been discharged. A stop may be provided for each gallon of liquid discharged. .In operation, the dial J110 will be set to indicate the number., of gallons desired and the handle 100 moved in the proper direction to operate the 'air piston and lift the pump rack until it is arrested by the stop corresponding to the numb'erof 'gallons desired. Reverse movement of the handle will then return t e piston in the manner. previously described. In case of failure of the air pressure or for any other reason, the pump may be operated by hand. Theair piston will not interfere with ythe hand operation since in its neutral posilvtion both ends of the air cylinder are open to atmosphere.

.An audible signal is preferably provided for indicating the number` of gallons discharged. This signal comprises a bell 113 mounted on a bracket 114 secured to the angle bars 26, as shown in Figs. 1 and 4. A bar 115 is disposed in the bracket 114 and carries a tapper 116 arranged to strike the bell 113. A spring 117 (Fig. 4) normally holds the tapper 1n position closely adjacent. the bell.l

A cam lug 118 (Fig. 3) is pivoted at 119 on the stop member 106 and contacts 120 are carried by the bar 115 in the path of the cam lug 118. As the cam4 lug" 118 passes the contacts 120 on the upward movement of the rack 38 the bar 115 will be rotated against the tension ofthe spring 117, and as the cam lug i moves out of engagement with the contacts 120 the bar 115 will be released and the tapper 116 will strike the bell. The parts are so adjusted that the bellwill be sounded each time the lug 106 reaches one of the conl tacts 104; that is, the-bell will audibly indicate each gallon of liquid pumped. In order to visibly indicate the amount of liquid pumped at each operation of the pumpingapparatus and keep a record of the ltotal amount pumped, an indicator shown in Fig. 5, is operatively connected withg'the shaft 40 which is'ponnected by `pmion 39 with the rackv 38. Thec shaft 40 is rovided with a bevelpinion 121, which mes es with a bevel pinion 122 on the upright shaft 123. The shaft 123 is provided with a worm 124 which meshes with a worm wheel 125 having a pointer 126 connected therewith to travel over a dial 128 the parts being so proportioned that the pointer 126 will indicate on the dial the number of quarts or other units form of tQtalizing-mechanism or counter 129 may be operated by the shaft 123 for indicating the total number of gallons pumped during a given'period or until the totalizer is reset.

The pump is also preferably provided with a printing register of any well known 0r approved form housed in the casing 130 and driven by a sha-ft 131, which 'carries a gear 132 meshing with a gear 133 on the shaft 40 as shown in Fig. 2. The rotation of the shaft 131 driven from thel shaft 40 will set up the printing mechanism to print a ticket -anism and issuey a. ticket.

indicating the number of gallons pumpedp and a crank r134 is connected with the printing mechanism to operate the'printing mech- The particular form of printing and ticket issuing mechanism is not described in detail as it is not a part of the present invention except in combination ,with the dispensing pump.

The position of' the rack 38 and consequently the number of gallons pumped is shown on the indicator `135 having a slide 136 connected .by a rod 137 to an arm 138 secured tothe rack 38 as shown in Figs. 3 and 15. The indicator 135 is preferably arranged to indicate gallons, while the indicator 128 may be graduated to indicate quarts. It will be seen that the cylinder 68 and theothery operating parts are carried by brackets bolted to the mainframe members 26. This construction makes it conveniently possible to remove the power drive and replace it by a power drive of another kind, if desired. For instance, the pneumatic cylinder may be easily removed from the supporting frame and an" electric drive substituted, such as that shown in my copending application Serlal No. 140,702, iled October 11, 1926,*for an i nozzle in `place.

improvement in motor operated dispensing pumps.' Where such substitution is made the pump cylinder, rack and. shaft 40 will be retained and the other driving mechanism mounted on thesupporting angle bars 26 in the upper portion of the pump casing. The provision of a skeleton frame which supports the operating mechanism independently of the pump proper makes such substitution easily possible and commercially practicable.. This is a great advantage 'in the manufacture of a line of pumps as it permits the use of standard parts for a variety of styles of pumps suitable for operation under various'conditions. It also permits a pump which has once been installed to be readily transformed from a hand operated to a power driven pump, or from a power .driven pump of one kind to a power driven pump of' and easily removable in sections to permit aci cess to the operating mechanism. It will be seen in Fig. 4, for instance, that the sides o f thehousing comprise sheet metal panels 139, which are Iheld to the base 20 by stripsv 140 and screws 141. Spacing, brackets 142 may be secured to theangle bars 26 to hold the panels spaced outwardly from the angle bars.

The upper portion of the housing is preferably of less width than the lower portion and a sheet metal molding member 143 connects the panels 144 of the upper portion with the panels139 of the lower portion. The upper end panels. 144 may be surrounded by acoping 145. A canopy 146 covers' the top of the housing and is providedfwith a peripherally' extending recess or opening 147 having glass plates 148 in the overhanglng portion, above which are positioned electric light bulbs 149 for lighting the sides of the housing. yThis lighting arrangement obstructs the direct rays of light which otherwise would strike the eyes of the observer but throws the light onto the pump housing which makes the -member 152, as shown in Figs. 4 and 14.

The bracket member has a pair of inwardly projecting arms153, which are connected by a flange 154 and a bridge 155. The hose noz-` zle 156 is provided with ribs 157 for' engaging the shoulders on the flange 154 to hold the A locking pin 159 is arranged to extend through openings in the ends 0f the arms 153 to lock the nozzle in the bracket 152. The pin 159 is provided with a -knob 16() disposed in the recess 52 to permit withdrawal ofthe pin 159 when the door 53Y is opened so that the nozzle 156 may be removed from engagement with the bracket 152. When the pin 159 is in place the nozzle 13G` is locked in the bracket. The 1door 53 prevents withdrawal of the pin 159 when the door is. closed and locked.

i- I claim:

n effecta pumping movement to said reciproslte direction,

35" Pmping stroke of the 1. A. dispensing pump comprising a base, a pump cylinder mounted on said base, a piston arranged to reciprocate in saidv pump cylinder, a connecting ro-d projecting up- Wardly from said piston through the end of said pump cylinder, upright bars carried by said base and extendin upwardly above said pump cylinder, a rac connected to said piston rod, a shaft having a pinion thereon meshing with said rack, a bearing member mounted lon saidupright 'bars in which said shaft is journaled, a h and crank for rotating said shaft, a clutch -member for releasably connectin said hand crank with said sha-ft, a brac et detachably supported by said upright bars, a motor cylinder carried by said bracket, a piston arranged to reciprocate in said motor cylinder, a piston rod connecting said piston with said rack, and means for introducing fluid under pressure into said motor cylinder for. operating said pump piston.

dispensing pump comprising a.

pumping cylinder having a reciprocating weighted piston therein, a motor cylinder having a piston therein connected With the piston in said pumping cylinder, means for introducing air under piston in said motor cylinder .to eHect a piston in said pumping cylinder, said pistons being turn to their initial position upon'release of pressure beneath said motor pistonfand means for introducing air in said motor cylinder above said motor piston to assist the action of gravity in returning said pistons to their initial position. r

3. The combination with a reciprocating pump, of a fluid pressure actuated for operating said pump, a cylin er in which said piston reciprocates, means for introducing iiuid under pressure into said cylinder at opposite sides of said piston to eating pump when said piston moves in one direction and a return movement of said pump when said piston moves in the oppothe passage to said cylinder for eecting the return movement of said pump having less capacity than the passage for introducing pressure fluid for edect-ing a pumping movement of said pump.

4. The combination with a vertically reciprocating pump, of a fluid pressure motor comprisin a piston and cylinder for operating. sai pump, means for introducing pressure fluid beneath said piston to effect a pumping movement of said pump, said piston being free to return by 'gravity on release ofthe pressure beneath said piston, and meansjfor introducing fluid under presply, said casi ng pressure below the' free .to re-v iston of said ports to atmosphere sure above said piston to assist gravity in edecting a return stroke of said pump, the passage for introducing pressure beneath said piston having a greater capacity than the passage for introducing pressure fluid above said piston.

5. The combination 'With a pump, of a Huid pressure motor for operating said pump, said motor comprising a cylinder and a piston therein, a source of fluid pressure supply for said motor, a valve comprising a casing having a chamber therein connected with said source of suphaving separate ports connected with `opposite ends of said motor cylind-er respectively, said ports being norreciprocating mally open to atmosphere, valves for closing t fluid supply for operating said piston,`a

double valve for controlling the admission of fluid pressure-to the opposite ends of said cylinder respectively, said valve having ports therein connected with the opposite ends of said cylinder respectively and normally open to atmosphere, means operable in one direction for closing one of said ports to atmosphere and thereafter connecting said port with one end of said cylinder, saidvmeans being movable in the opposite direction past a neutral position which both of said ports are open to atmosphere'for closing the other and thereafter connecting said port Withsaid source of fluid supply.

7 The combination with a dispensing pump, of a fluid pressure motor for operating said pump, said motor comprising a cylinder and a reciprocating piston therein, a

source of fiuid ing said motor, ber connected with said source of supply, a pair of ports in said casi connected with opposite ends of said cyli der respectively,

pressure supply for operatports, s aid ports a valve casing having a cham- -valves for closing the openings between said neutral position in which both of said porta are connected to `atmo here, one of said plungers being operate b said manually 1 actuatedmeans when move in onel direction n for closing one of said exhaust openings and connecting the corresponding port with said pressure chamber, said manually actuated means being operable-when moved in the opposite direction for iirst -restoring said m first mentioned plunger to neutral position Y and thereafter actuating the other plunger for closing the exhaust openin connected with the other port and therea er connecting said last named port with said spressure chamber.

8. The combination with a pump cylinder, ,of a reciprocating piston therein weighted to return the same by gravity lto its initial lower position when released, operating mechanlsm for said` reciprocatin piston, f

means for arresting the upward stro eof the' pumping piston to restrict the amount of liquid pumped thereby to a predetermined measured quantity, andi means for controlling said operating mechanism to effect a1- ternate upward strokes by power and down-l ward strokes by gravity acting on said weighted piston. ,A 9. In dispensing apparatus, the combina- 3.' tion -with dispensing mechanism conprising a delive hose with a nozzle connecte thereto, of a ous'ing for said dispensing mechanism, means in said housing for supporting saidnozzle in inoperative position, a handY crank for operating said dispensing mechanism,` means comprising a locking pin for locking said'handv crank in inoperative position, means comprising another locking pin for locking said nozzle in inoperative posi- 4o tion in said housing, a cabinet on the outer portlon of said housing, knobs on the end. of said locking pins in position in said cabinet, anda door for closing said cabinet and engagingsaid knobs to hold both of said locking pins' 1n ftheir locking positions when the doorv is closed.

Intestiniony whereof I have signed my name 'to this specication on this 23rd day of September, D. 1926. s e LEE R. HARTLEY. 

